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Computers & Business Machines

Imagine the loss, 100 years from now, if museums hadn't begun preserving the artifacts of the computer age. The last few decades offer proof positive of why museums must collect continuously—to document technological and social transformations already underway.

The Museum's collections contain mainframes, minicomputers, microcomputers, and handheld devices. A Cray2 supercomputer is part of the collections, along with one of the towers of IBM's Deep Blue, the computer that defeated reigning champion Garry Kasparov in a chess match in 1997. Other artifacts range from personal computers to ENIAC, the Altair, and the Osborne 1. Computer components and peripherals, games, software, manuals, and other documents are part of the collections. Some of the instruments of business include adding machines, calculators, typewriters, dictating machines, fax machines, cash registers, and photocopiers

Pronto Systems, Inc. introduced its Pronto Series 16 computer in 1983. It represented the high end of business computing of its era. The Pronto pioneered innovative design features, including a tilting and swiveling monitor, small foot print, a streamlined and adjustable keyboard, and an expandable cord that allowed the processor to be stored as much as six feet away from the monitor. These features won a 1983 design award from Industrial Design Magazine. The computer offered the first tower system—a design that later became common in the industry.

Inside, the Pronto 16 was a powerful machine designed for the full range of business applications. It had a 16-bit Intel 80186 microprocessor. It was shipped with MS-DOS 2.0. It had 128 KB of RAM, which could be expanded to 1 MB. The standard hard drive was 5.6 MB, and it was removable. The computer had dual 800 KB floppy drives (5 ¼"), dual serial ports, one parallel port, and a high-resolution monochrome monitor. Users could buy a color monitor as an option. Base price was $3,000.

Over 1,000 systems were sold from 1983 to 1987. The company had to file for bankruptcy when the stock market crashed while the company was in the process of going public through an Initial Public Offering.

After the success of the IBM's business PC, IBM attempted to capture the home market with the IBM PCjr. The PCjr system was compact, low cost, and designed for applications related to learning, entertainment, and personal productivity.

The computer had an Intel 8088 microprocessor that ran at 4.77 MHz–faster than most systems on the market at the time. It 64 KB of RAM, which could be expanded to 256 KB and later to 720 KB with third party add-ons. It featured an internal 5 1/4" floppy drive and a wireless keyboard. King's Quest, a popular Adventure game of the 1980s, debuted on the PCjr.

Despite a flashy debut and a strong technology core, the PCjr flopped in the market. Consumers were not as attracted by the IBM name as business had been. Price was a major factor. The PCjr cost about the same as the Coleco Adam, but for the price, the Adam included two tape drives, a printer, and software. The PCJr was twice as expensive as the Commodore 64. With the exception of the Apple II, it was possible to purchase a complete system (computer, disk drive, and printer) from almost any of IBM's competitors for less money. However, criticism of the system focused on the "chiclet" keyboard. Similar to that of a pocket calculator, the small keys were cheap and difficult to use for touch typing. IBM later replaced this with a wireless conventional-sized keyboard. But it could only be used two or three feet away from the machine and drained batteries quickly.

Announced in November 1983 and available in March 1984, IBM sold the PCJr for $669 with 64 KB RAM, and $1,269 for 128 KB RAM. The more expensive system also included a floppy-disk drive. IBM discontinued the PCjr in March of 1985 after selling only approximately 270,000 units.

The Franklin Ace 1200 was one of the Franklin Corporation models of Apple II clones made for sale in the United States. It was an upgrade of the Franklin 1000. It was compatible with Apple II computers, but could also run the CP/M operating system.

The Franklin ACE 1200 had a MOS/Commodore 3502 microprocessor that ran at 1 MHz. It contained 48 KB of RAM and 16 KB of ROM and dual 5 ¼" floppy drives. The Ace 1200 came out between Apple II+ and the Apple //e. It included a CP/M card, a disk controller card, an 80 column card, and a dual serial/parallel card that was software interchangeable. The printer card caused problems because many applications did not recognize it.

The Franklin Ace 1200 was introduced in 1983 for the price of $2,200. The Franklin series was ended after Franklin lost a legal battle with Apple.

This beige electronic cash register has a printing mechanism, an LED display, and a separate, locked cash drawer with a broken key. The interior of the register is accessible and includes a number of circuit boards, the printer mechanism, wires, and fuses. Two circuit boards are covered in plastic and one had double-stick tape and foam attached to it to block the heat of the power source. A disintegrating foam panel is in the front of the unit. Paper and a print cartridge are still in the machine.

A tag on the top front of the machine reads: MKDBantam. A Hayman Cash Register Co. sticker is below this. The register has serial number 940561.

MKD Corporation, formed in 1972, sold both point-of-sale terminals and low-cost electronic cash registers.

Debuting in June 1984, model 6300 was AT&T's first entry into IBM compatible computers. It was the low end of the AT&T computer line. The machine was built by Olivetti in Italy. In comparison to the IBM PC XT, which used an 8 bit, Intel 8088 chip running at 4.7 MHz, the 6300 used a 16 bit, Intel 8086 chip that ran at 8 MHz. Although the 6300 was a good machine in its class, AT&T did not follow it up, and within several years, the company abandoned the PC clone computer market.

This particular computer was used by computer multi-media pioneers Robert Morris and Trip Denton to create a digital multimedia authoring software, VirtualVideo Producer. Introduced in 1986—a year before hypercard—this software allowed users to produce multi-media shows with their PC and an image capture board. It is one of the first, if not the first, multi-media authoring system on the market. The presentations could incorporate images, video, text, and animations. Morris and Denton created a company, V_Graph to develop and market their product. The Smithsonian has a range of materials that document the early history of the firm. By the early 1990s, VirtualVideo Producer had matured and was bundled as Tempra with products from Creative Laboratories, Mathematica, and others. Over 300,000 copies were eventually distributed.

The Apple Lisa introduced the graphic user interface (GUI) into the Apple Computer Corporation's line of personal computers. Instead of using only text-based commands, users could employ pictorial icons displayed on the screen to initiate operations. Officially, "Lisa" stood for "Local Integrated Software Architecture," but it was also the name of Apple co-founder Steve Jobs' daughter. This computer was also Jobs "baby," as he championed its creation and believed it would revolutionize personal computing. Apple spent four years and $50 million to develop it, but it turned out to be a commercial flop, in large part because of the $10,000 per unit cost. Only 80,000 were eventually sold. The Lisa is most important historically as the computer that pioneered concepts later used in the far more successful Macintosh.

Not long after Intel introduced its 8080 microprocessor, a small firm in Albuquerque, New Mexico, named MITS (Micro Instrumentation and Telemetry Systems) announced a computer kit called the Altair, which met the social as well as technical requirements for a small personal computer. MITS succeeded where other, more established firms had failed, and it was their machine that inaugurated the personal computer age. MITS got its start in computing in 1971, when it introduced an electronic calculator kit. Several thousand sold before 1974, when the sharp reduction in calculator prices drove the company out of that market.

H. Edward Roberts, the Florida-born former U.S. Air Force officer who headed MITS, decided to design a small, affordable computer around the Intel 8080. His daughter named the new machine after the star Altair. It was the first microcomputer to sell in large numbers. In January 1975, a photograph of the Altair appeared on the cover of the magazine Popular Electronics. The caption read “World's First Minicomputer Kit to Rival Commercial Models.” According to the magazine, the machine sold as a kit for $395, and assembled for $498. Roberts had hoped to break even by selling 200 Altairs. Within three months he had a backlog of 4,000 orders.

Enthusiasm for the Altair and other personal computers spawned computer hobbyist clubs, computer stores, newsletters, magazines, and conventions. By 1977, a host of companies, large and small, were producing microcomputers for a mass market. This phenomenon was abetted by a design decision to make the Altair an "open" machine. In other words, it passed data along a channel called a bus, whose specifications were not kept a secret. That way both MITS and other companies could add memory cards, cards to control a printer or other devices as long as they adhered to the published standards.

This particular Altair was collected by the Smithsonian because it documents how hobbyists would outfit the machine with additional parts and components. The user added his own keyboard, monitor, disk drive, and 17 plug-in boards to expand the computer’s capability. Unfortunately, the original owner of the kit is unknown. The computer was donated to the Smithsonian by a second owner, Mark Sienkiewicz, who purchased it as a collectable item and never used it.

Not long after Intel introduced its 8080 microprocessor, a small firm in Albuquerque, New Mexico, named MITS (Micro Instrumentation and Telemetry Systems) announced a computer kit called the Altair, which met the social as well as technical requirements for a small personal computer. MITS succeeded where other, more established firms had failed, and it was their machine that inaugurated the personal computer age. MITS got its start in computing in 1971, when it introduced an electronic calculator kit. Several thousand sold before 1974, when the sharp reduction in calculator prices drove the company out of that market.

H. Edward Roberts, the Florida-born former U.S. Air Force officer who headed MITS, decided to design a small, affordable computer around the Intel 8080. His daughter named the new machine after the star Altair. It was the first microcomputer to sell in large numbers. In January 1975, a photograph of the Altair appeared on the cover of the magazine Popular Electronics. The caption read “World's First Minicomputer Kit to Rival Commercial Models.” According to the magazine, the machine sold as a kit for $395, and assembled for $498. Roberts had hoped to break even by selling 200 Altairs. Within three months he had a backlog of 4,000 orders.

Enthusiasm for the Altair and other personal computers spawned computer hobbyist clubs, computer stores, newsletters, magazines, and conventions. By 1977, a host of companies, large and small, were producing microcomputers for a mass market. This phenomenon was abetted by a design decision to make the Altair an "open" machine. In other words, it passed data along a channel called a bus, whose specifications were not kept a secret. That way both MITS and other companies could add memory cards, cards to control a printer or other devices as long as they adhered to the published standards.

This particular Altair was collected by the Smithsonian because it documents how hobbyists would outfit the machine with additional parts and components. The user added his own keyboard, monitor, disk drive, and 17 plug-in boards to expand the computer’s capability. Unfortunately, the original owner of the kit is unknown. The computer was donated to the Smithsonian by a second owner, Mark Sienkiewicz, who purchased it as a collectable item and never used it.

Not long after Intel introduced its 8080 microprocessor, a small firm in Albuquerque, New Mexico, named MITS (Micro Instrumentation and Telemetry Systems) announced a computer kit called the Altair, which met the social as well as technical requirements for a small personal computer. MITS succeeded where other, more established firms had failed, and it was their machine that inaugurated the personal computer age. MITS got its start in computing in 1971, when it introduced an electronic calculator kit. Several thousand sold before 1974, when the sharp reduction in calculator prices drove the company out of that market.

H. Edward Roberts, the Florida-born former U.S. Air Force officer who headed MITS, decided to design a small, affordable computer around the Intel 8080. His daughter named the new machine after the star Altair. It was the first microcomputer to sell in large numbers. In January 1975, a photograph of the Altair appeared on the cover of the magazine Popular Electronics. The caption read “World's First Minicomputer Kit to Rival Commercial Models.” According to the magazine, the machine sold as a kit for $395, and assembled for $498. Roberts had hoped to break even by selling 200 Altairs. Within three months he had a backlog of 4,000 orders.

Enthusiasm for the Altair and other personal computers spawned computer hobbyist clubs, computer stores, newsletters, magazines, and conventions. By 1977, a host of companies, large and small, were producing microcomputers for a mass market. This phenomenon was abetted by a design decision to make the Altair an "open" machine. In other words, it passed data along a channel called a bus, whose specifications were not kept a secret. That way both MITS and other companies could add memory cards, cards to control a printer or other devices as long as they adhered to the published standards.

This particular Altair was collected by the Smithsonian because it documents how hobbyists would outfit the machine with additional parts and components. The user added his own keyboard, monitor, disk drive, and 17 plug-in boards to expand the computer’s capability. Unfortunately, the original owner of the kit is unknown. The computer was donated to the Smithsonian by a second owner, Mark Sienkiewicz, who purchased it as a collectable item and never used it.